Remote controller



Oct. 12, 1943. L J. ANDRES 2,331,590

REMOTE CONTROLLER Filed Dec. 31, 1937 8 Sheets-Sheet l INVENTOR:

WW MM ATTORNEY.

Oct. 12, 1943. J. ANDRES 2,331,590

REMOTE C ONTROLLER Filed Dec. 31, 1937 8 Sheets-Sheet 2 INVENTOR.

119% J and/e6 w w/will ATTORNEY.

Oct. 12, 1943. L. J. ANDRES 2,331,590

REMOTE CONTROLLER Filed Dec. 31, 1 93"! 8 Sheets-Sheet 3 INVENTOR.

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Oct. 12, 1943. L, J ANDRES 2,331,590

REMOTE CONTROLLER Filed Dec. 31, 1937 8 Sheets-Sheet 4 INVENT R.

Zlqyd J "65 BY- Oct. 12, 1943. L. J. ANDRES 2,331,590

REMOTE CONTROLLER Filed Dec. 31, 1937 8 Sheecs-Sheet 5 INVENT OR:

450 Janka WM MW! ATTORNEY.

' Oct. 12, 1943. L. J. ANDRES 2,331,590

REMOTE CONTROLLER Filed Dec. 31, 1937 8 Sheets-Sheet 6 m0 /0/ 95 7 mg IN VENT OR.

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L. J. ANDRES REMOTE CONTROLLER Filed Dec. 31, 1937 8 Sheets-Sheet 7 Patented Oct. 12, 1943 UNITED STATES PATENT OFFICE 2 Claims.

This invention relates in general to an electric controller for a plurality of circuits which may be independently energized to perform an electrical function at a distance from the device, and it is more particularly described as a controller for remotely controlling a phonograph mechanlsm after the insertion of coins of various sizes.

An important object of the invention is in the provision of means for receiving one or more coins and after the coins are inserted, for selecting one or more of the electrical circuits corresponding to designated phonograph selections on the face of the controller, so that after a predetermined number of selections has been made the mechanism is automatically restored to its inoperative state.

In carrying out the invention the controller also includes various means to prevent fraudulent operation without the insertion of coins, and other means to prevent the operator from obtaining or playing selections in excess of those called for by the insertion of the proper coin or the proper number of coins.

Other objects of the invention will appear hereinafter, the preferred construction and various modifications being illustrated in the accompanying drawings, in which Fig. 1 is a front view of a suitable casing in which the operating mechanism is housed;

Fig. 2 is a rear view of the mechanism enclosed in the casing;

Fig. 3 is a sectional view showing the coin slide mechanism taken on the line 33 of Fig. 2;

Fig. 4 is a side view of the slide mechanism taken on the line 4-4 of Fig. 3;

Fig. 5 is a sectional view showing a detail of the push button structure;

Fig. 6 is an elevation showing the push button locking plates;

Fig. 7 is a view partly in section and partly in elevation illustrating the operation of the push button locking and non-interference means;

Fig. 8 is a perspective showing a pair of the push button locking latches;

Fig. 9 is a wiring diagram illustrating the operation of the controller; and

Fig. 10 is a sectional view illustrating a mechanical modification of the non-interference locking plate.

This remote controller is constructed so that it may be operated by the insertion of various coins such as nickles, dimes and quarters and is electrically connected by means of a multiple cable to any selective device such as a phonograph having electrical means for playing any one of the selected records. It is intended that any record may be selected for play for each five-cent value, and a record may be repeated or different records may be played depending upon the multiples of five-cents which are inserted.

Referring now more particularly to the drawings, the mechanism of this controller is assembled and housed in a case or cabinet l2 usually of pleasing structure, design and color. At the center of the front face are two rows of push buttons l3 and H which are adjacent to indirectly illuminated program slips I5 and I6 adjustable in frames l1 and i8 corresponding to the selections to be played by a remote phonograph. At each outer side of the frames f1 and I8 is a window l9 and these windows as well as the program slips are directly or indirectly illuminated by electric lamps 20 within the casing. The windows 19 may contain pertinent or other advertising matter and the program slips are usually illuminated so that they can be read more easily.

Directly below the program plates are three conventional coin slides 2|, 22 and 23 movable through face plates 24 and adapted to receive ten-cent, five-cent and twenty-five cent coins respectively.

The front face or wall of the cabinet is preferably of opaque material and the push buttons l3, I4 projecting forwardly therefrom (see also Fig. 10) are of transparent or translucent material, each being mounted upon a stem 25 which projects through a plate 26 spaced from the front plate of the cabinet a suflicient distance so that small electric lamps 21 may be placed therebetween. The rear end of each push button is formed with a shoulder 28 which limits its movement in a forward direction and the rear of the shoulder portion is either painted or coated to make it opaque or the shoulder itself is opaque so that when the push button is closed it is not illuminated but as soon as a push button is depressed the outer portion thereof which is translucent will be illuminated by the lamps 21, thereby clearly indicating any of the buttons which are pushed inwardly.

At the upper end of the front of the casing may be a clock 29 for indicating the time as it relates to the controller and for decorative purposes.

Also located within the casing is a transformer 3| for furnishing low voltage current to the miniature lamps 21 for illuminating the push buttons; the coin receiving mechanism at the inner ends of the coin slides as shown more clearly in Figs. 2, 3 and 4; the selection adding and subtracting mechanism as shown more clearly in Figs. 2 and 3; a push button restoring magnet 32; and a metal box 33 at the base of the cabinet for receiving coins inserted in the casing.

Each of the coin slides is slidable in a guide 34 projecting from the face .plate and having arecess 35 at'the top for allowing the insertion of the proper coin within an opening 36, 31 or 38 of the corresponding slide. At the bottom of each guide is an opening 39 by means of which a coin inserted in the opening of the slide may be dislodged before the slide is pushed inwardly. Each slide includes conventional means for detecting and rejecting spurious coins which forms no particular part of this invention.

Mounted above and below each sliding member of the coin slide (see Figs. 3 and 4) are latches 40 and 4| which prevent the slide from moving inwardly until the proper coin is inserted. At one side of each slide is a ratchet device 94 which prevents manual reciprocation or return inward movement of the slide after it has been operatively inserted to the required extent. These safety devices are shown by Patents 1,908,308 and 1,908,752, form no part of this invention and are not here described in detail.

At the rear ends of the slides 2!, 22 and 23 is a locking device for insuring that only one slide may be operatively inserted at a time, thus .preventing an operator from losing plays by inserting two or more slides at the same time. 'This locking device comprises a plate 42 mounted to move transversely of the slides by means of fastening screws 43 inserted through openings larger than the screws in the plate and into a fixed support 44. Projecting upwardly from the plate 42 are spaced pins 45 extending through slots 48 in the support 44 beyond the upper side thereof and into the path of the ends of the slides 2i, 22 and 23. The extremities of these slides are cut off angularly at the corners to provide angular shoulders 41 adapted to engage the projecting pins 45 for moving the locking plate 42 accordingly. By reference to Fig. 3 it will be seen that the locking pins '45 for the central slide 22 are spaced apart exactly the proper distance to allow this slide to pass between the central pins 45, but in this position if the slide 22 is inserted between them the two outer pins 45 will be locked in the paths of the outer slides 2| and 23 engaging the shoulders 41 thereof and preventing their inward movement. Likewise if either one of the outer slides is pushed inwardly its shoulder 41 will engage the corresponding outer pin 45 pressing the locking plate 42 lengthwise and locating other pins directly in the paths of the other slides, thereby preventing their operation.

In operating the slides the five-cent slide produces a single operation or makes provision for playing a single selection, the ten-cent slide two selections, and the twenty-five cent slide five selections. The mechanism operated by the slides is shown more clearly in Figs. 3 and 4 and comprises a rotatable shaft 50 positioned above the slides 2|, 22 and 23 and mounted in suitable bearings at the ends. Secured to the shaft by a set screw is an arm II in the path of a latch 52 carried by the ten-cent slide 2!; and an arm 53 similarly secured to the shaft in the path of a latch 54 carried at the rear of the five-cent slide 22. A gear 55 is secured to the shaft opposite a latch 56 of the twenty-five cent slide 23 but this latch engages a slide 51 having a rack 58 in engagement wtih the gear 55 and mounted assneoo by means of a slot 8! and bearing screws 60 which are inserted in an upstanding support ll so that when engaged by the latch 50 the gear 55 and the shaft 50 will be rotated an amount equal to five steps of the movement of the shaft.

Each of the latches 52, I4 and I58 is mounted upon a pivot 82 at one end between spaced upright supports 48 carried by its slide and has a pin or projection 84 at the other or free end. Each latch is held releasably in either one of two positions by means of recesses or openings 65 and 86 in the latch engaged by a ball 81 seated in an opening therefor in one of the supports 43 and held in this opening by a spring 68 attached at one end to the support and bearing at the other upon the detent ball.

In its raised position with the ball engaging the lower recess 46 each latch will engage its corresponding arm II, 53 or the slide 51 during the rearward movement of its slide. When each latch is engaged by the detent ball and the upper recess 65, each latch will be held out of con- I tacting position with respect to its corresponding arm or slide 51.

In order to move each latch from one position to another two guides I0 of similar shape are secured to the support 44 over the rear paths of movements of the coin slides and each of these guides comprises an angular hook Ii at the rear end located in the path of one or more of the latch projections 44, a depressed intermediate portion and a raised front portion I2 connected to the intermediate part by an inclined portion 12 such that as a coin slide is moved inwardly its latch 56 will engage and move its slide 51 and near the rear end of its travel will engage the tripping hook H which will pull the latch 58 downwardly, disengaging the ball detent from the lower latch recess 86 and engaging the upper latch recess 65, thereby preventing the coin slide from being operatively reciprocated back and forth near the end of its stroke but allowing it to be formed forwardly, and preventing it from engaging one of the corresponding arms II or 53 by such movement because the latch is too low at that time, and onLv restoring the latch to its operating position when the projection 44 thereof engages the inclined portion II of the guide upon its forward return movement, thereby reengaging the ball detent with the lower latch recess 66 and placing the latch in position for the next operation.

At one end of the operating shaft 50 is an ordinary telephone contact dial mechanism ll for making and timing the necessary contacts made by the coin slide latches. This mechanism comprises a spring 18 at the end of the shaft for returning the shaft and the rack plate 5| to its normal position for re-operation by the coin slides. It also includes a gearing and a governor for retarding the gearing (not shown) and rotating a double ended cam contact maker 11 for closing a switch 18 (see Fig. 9) in accordance with the actuation of the shaft 50 by the coin slides. In the case of the five-cent coin slide the shaft 50 is rotated sufllciently so that one contact of the switch I8 is made, the tencent slide produces rotation suilicient for two contacts and the twenty-five cent slide produces sufficient rotation to make five contacts. The timing or retarding of the returning movement is for the purpose of insuring that these operations of the switch 18 will not be too rapid.

Through an electrical circuit closed by the telephone dial switch 18 the adding and subtracting mechanism for playing any number of records, depending upon the denominations of the coins, is brought into operation. This mechanism is shown in position in the casing in Fig. 3 and in its diagrammatic relation to the other parts in Fig. 9. It comprises a magnet 88 periodically energized by the timed closing of the contacts of the telephone dial switch, thus actuating its armature 8| which includes an escapement pawl for an escape wheel 82 actuated by a spring 83 and the pawl being held normally so that the armature is spaced from the magnet by a spring 84. At one side of the escape wheel are electrical contact fingers 85 and 86 normally held in spaced apart relation by a contact pin 81 carried by the escape wheel. As soon as the magnet 88 receives its first impulse the toothed wheel 82 is moved one step and the pin 81 allows the contacts 85 and 86 to close.

The escape wheel 82 is thus rotated a number of steps corresponding to the coins which have been inserted and an operator may choose the remote control selections which he desires played corresponding to this number of steps by operating the push buttons. For each push button that is operated the subtracting mechanism will rotate the escape wheel 82 in a reverse direction by means of a magnet 88 which has an armature with an extension 89 provided with a tooth 98 for engaging the teeth of the escape wheel and having a slot 9I controlled by a projection or screw 92 inserted therethrough, the armature and extension being drawn outwardly by a spring 93 to such a point that the tooth 98 is out of engagement with the wheel 83, thereby allowing the wheel to be rotated by its spring 83 whenever the escapement pawl is operated by the magnet 88. When the magnet 88 is energized its armature and the extension 89 are drawn inwardly and in the return movement caused by the spring 93 the tooth 98 engages one of the teeth of the spring wheel 82 causing a reverse or subtracting movement of the wheelagainst its spring 83 tending to return the projection 81 to separate the contact fingers 85 and 86. As soon as these contacts are separated there can be no more playing of records until more coins are inserted by the coin slides. The magnet 88 is energized when any one of the push buttons is operated for choosing any of the selections as hereafter explained.

Any desired number of selector buttons I3 or I4 may be employed. This controller shows two rows of ten buttons, each operative to produce a corresponding operation and each row or set having an electrical or a mechanical means for preventing more than one play at a time.

Each push button stem 25 is mounted to slide through fixed plates 26 and 95 spaced apart and located at the rear of the face plate. Intermediate the ends of the stem is a notch 96 so located that when apush button is depressed the notched portion is pressed through the plate 95 where it may be engaged by a latch 98 having a perforation 98 slightly larger than the stem through which the latter extends. On the stem between the plates 94 and 95 is a groove 99 in which a spring collar I88 is seated to form a stop for one end of a button returning spring IN, the spring being mounted at the other end upon a sleeve I82 having an enlarged shoulder I83 which abuts the face of th plate 95. Thus when any button is pressed inwardly the spring IN is compressed about the sleeve I82.

The rear end of each stem 25 extends through an insulated back plate I84 upon which are mounted spring contacts I85 and I86 at opposite sides of each stern, and a single contact I81 at one side of the stem at right angles to the other two contacts.

Between the plates and I84 a spring collar I88 is also attached to each stem 25 forming a stop for a contact maker I89 mounted upon an insulating sleeve H8 and slidable upon the stem under the influence of a spring III surrounding the stem and disposed between the sleeve H8 and the insulated plate I84. This contact maker is preferably of metal adapted to make electrical connection between the bent tips of the conductors I85 and I86 on opposite sides of the stem or between the conductors I85 and I81 when the push buttons are pressed inwardly. When the push buttons are in their outermost position the contact makers I89 make a series connection between all of the spring contacts I85 and I86 of adjacent push buttons and when a push button is depressed through its entire range the contactor I89 makes a connection between the spring finger I85 at one side of the stern and its conductor I81 at right angles thereto for the purpose of closing a single remote circuit connection. The spring III pressing the contact maker I89 tends to make a series connection between the contacts I85 and I86 at opposite sides of each stem except when the push button is depressed through its entire range as shown by the upper button at the top of Fig. 7.

When any button is released after depressing it through its entire range it is engaged by its latch 91 and a connected mechanism as shown more clearly in Figs. 6 and 8. There is a separate latch 91 for each push button stem 25, the latch being mounted at one end upon a pivot H2 attached to the bearing plate 95 and the other end of the latch having an extension II3 overlying a stud II4 projecting from a vertical bar II5 so that the projections of corresponding buttons of two rows engage the same stud I I4.

To operate the bar II5 a magnet H6 is attached by suitable brackets II! at one side of a frame H8 in which the push button stems are mounted and has an armature II9 with an attached cross bar I28 extending through the frame H8 and having a spring I2I interposed between the other side of the frame and a washer I22 at the other projecting end of the shaft I28. Connected to this cross bar is one end of an angle lever I23 having a pivot I24 for mounting it intermediate its ends upon the plate 95, and its other end connected by a link I25 with the vertical bar H5. The action of this connection is that when the magnet I I6 is energized the cross bar I28 is pulled against the action of spring I2I, causing the vertical bar H5 to move downward and allowing the latches 9'! to fall by gravity against the stems 25 of the push buttons. Whenever any stem is pushed sufficiently through the plate 95 so that its latch 91 can engage with the notch 96, the weight of the latch Will cause it to engage in the notch, preventing the push button from being returned by its spring IM to the outermost position. This will expose the outer transparent end of the push button which will be illuminated by one of the lamps 21 indicating that this button has been depressed.

When any push button is depressed to make an operative connection with its contact I81 the series connection through the other buttons is broken, as hereinafter explained in connection with the wiring diagram, and the depression of any other button can have no effect and. only the circuit corresponding to the button which is depressed will be energized. This arrangement prevents the operator from obtaining more than one operative connection or one play at a time.

As soon as any button is depressed the escape wheel magnet 88 is energized, bringing the tooth of its pawl 89 back into operative position with the escape wheel 82,

As soon as a push button is permitted to return part way under the influence of its spring IM and limited by its latch 91, the remote control circuit through the contact I01 is broken and the pawl of the magnet 88 is returned by the action of its spring 93, thus returning the pawl wheel one step. In this position the series connection is again made through the spring contacts I05, I06 so that any of the other push button control circuits may be established by depressing them singly throughout its entire range.

After a number of plays have been selected by the push buttons corresponding to the coins inserted, the pawl wheel 82 will have returned to its normal position in which the contact pin 81 engages the extremity of contact finger 85 and separates it from contact finger 86, thereby breaking the connection to the magnet H6 and allowing the spring I2I to move the cross bar I20, thus raising the vertical bar H and through it raising all of the latches 91 by the contact of the studs 4 with the extensions 3 thereof, thereby releasing each of the push but tons from the latch engagement of the notches 96 and thereby allowing the springs I02 to return the push buttons to their normal outermost and unilluminated position.

A mechanical means of preventing more than one push button from being depressed at one time is illustrated in Fig. 10. In this form each of the push button stems I26 is slidable in front and rear plates I21 and I28 respectively. Between these plates is a slidable plate I29 having perforations I30 corresponding in number to thepush button stems but the center distances between the holes being varied. Slidably mounted upon each stem at one side of the plate I29 is a conical member I3I in which the smaller end of the cone is sufiiciently large to engage in the opening I30 of the plate I29 in any position. The larger end of the member will only pass through its opening I30 of the plate when in proper alignment and the conical member is urged into engagement with the plate by a spring IOI surrounding the stem I26 and bearing at one end against the larger end of the conical member and at the other end against a washer I32 fixed to the stem and normally abutting the front plate I26.

At the other side of the plate I29 is a contact maker I33 mounted upon an insulating sleeve I34 secured to the stem and pressed normally toward the plate by a spring I35 bearing at one end against the sleeve I34 and at the other end against the plate I28. Mounted upon the plate I28 at opposite sides of each stem are spring contacts I36 adapted to be engaged by the contact maker I33 when it is sufliciently moved against its spring I35.

Thus when a single push button is depressed the plate I29 which is slidable longitudinally, is moved by the conical portion of the cone member I3I so that the corresponding hole I30 in the plate is axially aligned and the cone then projects through its opening into engagement with the larger portion of the cone, preventing the movement of the plate I29 by the depression oi any of the other push buttons. At this time some of the conical members will extend partially into their openings I in the plate. The actuated push button whose conical member positions the plate extends through the hole I80 thereof and into engagement with the contact maker I88, or its sleeve I34, pressing it against the tension of its spring I36 and into contact engagement with the spring contact fingers I88. Thus it will be seen that when one of the buttons is depressed no other button can be depressed until the operated button is returned to its outer or normal .position by the spring I85. As soon as the conical member of the depressed button is moved by the spring I35 into engagement with its hole I30 of the plate I28, any of the other push buttons may be depressed, moving the plate into alignment and preventing the operation of any other buttons in the same manner.

In applying this controller it may be assumed in connection with Fig. 9 that the push buttons are for the purpose of closing operating circuits to a number of electro-responsive devices A-I, A2, A-3, A-4, A5 and A-6, having a number of corresponding push button switches'SI, S2, 8-3, 8-4, S5, and 5-6, and S, each device connected to its corresponding fixed switch contact I01 by conductors C-I, C-2, C-3, C4, C5 and C--6 and having a common terminal conductor I31 excepting switch 8, the connections for which are shown broken to indicate that any further or additional switches may be provided if necessary or desired.

At the start all of the push buttons are in their normal or outer positions with their contact makers I09 making a series connection between the contact fingers I05 and I06 free from contact with the respective energizing fingers I01. An operator desiring to play a number of selections deposits one or more coins in the slides 2I, 22 or 23 which causes a corresponding operation or the timing dial mechanism 15 to rotate the contact maker 11 for closing the switch 18 a corresponding number of times. This energizes the magnet 80 a corresponding number of times, closing an energizing circuit from a main or source of supply as follows: from current supply main I88 through conductor I39, switch 18 and conductor I40 to one end of the magnet winding 80 and thence through the winding conductor HI and a manually operated switch I42 to the other supply main I43. Each time the magnet 80 is energized it attracts its escapement pawl armature 0|, allowing the spring 83 to rotate the escape wheel 82 one step in a clockwise direction, thereby moving the contact pin 81 away from the spring contact finger 85 and allowing the contacts 85 and 86 to close.

Closing the contacts 85 and 86 causes an energizing circuit to be set up through the winding of magnet II6 from the supply main I38 by way of conductor I44 through the contact fingers 85, 86, conductor I45, through the magnet windlng H6 and then through conductor I46 and switch I42 to the other main I43. Energizing the magnet H6 causes the operation of the push button latches represented diagrammatically in this figure by the operating bar I20, its spring I2I opposing the magnet, with studs I I4 and latches 91. In their outer or unoperated position the push button contact makers I09 are connected in series between their conductors I05, I06, by conductors I41 and the last contact I06 is connected by a conductor I48 through a thermostatic switch comprising a fixed contact I49 which engages a contact I50 mounted upon one end of a movable arm I5I having a pivot I55 at its other end and controlled by a heating coil I52, the circuit continuing from the contact I 5I through the coil I52 extending about the arm and through a con-= ductor I53, thence through the winding of magnet 88 and conductor I54, spring contacts 86, 85 and conductor I44 to one of the main sources of supply I38. When any on of the push buttons is depressed a contact is made with its corresponding fixed contact I01 which leads to the remote control device which is thereupon operated for any desired purpose. In the case of a remote controlled instrument for playing a number of musical selections, the chosen selection is played.

When any push button is depressed, contact I09 first breaks the series connection between contacts I05 and I06, and then makes a connection between contacts I05 and IN which completes the operative connection desired. Releasing the push button causes latch 91 to engage the stem 25 in a partially depressed position to illuminate the button, and at the same time allowing the contact maker I09 to be returned under the influence of its spring III first to break connection with contacts I05 and I01, and then to re-establish series connection between the outer ends of contacts I05 and I05.

The remote controlled mechanism is represented as any one of the electro-magnets A-I, A-2, etc., and assuming that switch 8-2 is depressed the circuit through the magnet winding 88 and through the thermostatic heating device is completed through the series connections I41 and contacts I05, I06 until th contact maker I09 of switch 8-2 is reached, which thereupon completes a circuit to its fixed contact I01 and thence through conductor -2 to magnet winding A-i. which thereupon operates any remote device controlled thereby as represented by 02, the circuit then continuing through the common return conductor I31 to the conductor I46 and thence through switch I42 to the other current supply main I43.

The circuit closed by any one of the push buttons is intended only to be a momentary or energizing contact which operates the magnet 88 to withdraw its armature and pawl extension 89 in a position to move the escape wheel 82 one step in the restoring direction; As soon as the circuit is broken by the return of the push button, the remote control operating circuit has been set up and that operation will continue until it is completed and breaking the circuit through magnet winding 88 causes the escape wheel to be moved one step in a return direction by its spring 93. If it should happen that the push button switch is held inwardly in closing connection with its contact I01, in an attempt to obtain a repetition of the same remote controlled action or operation, then the thermostatic heating coil I52 becomes heated to such an extent that the arm II is deflected about its pivoting point I55 at one end thereof which operates the contacts I49 and I50 at the other end, breaking the circuit through the magnet 88 and thereupon causing the return movement of the escape wheel 82. This defeats the attempted repetition or continuation of the remote controlling circuit. After a predetermined time the cooling of the coil I52 connects the contacts I50 and I49 and the push buttons may be operated as desired.

An operator may insert any desired number 5 of coins, producing a corresponding number of steps of the escape Wheel for any number of push button operations, but when this predetermined number of push button selections has been made in the proper manner the escape wheel is returned until it contact,pin 81 engages the spring finger 85 separating it from the contact 86 and thereby breaking the circuit connection through the magnet II6, thereby releasing all of the locking latches 91 and allowing the push buttons to return to their normal outer position under the influence of their springs as heretofore explained.

To illuminate the transparent portions of the push buttons the electric lamps 27 may be supplied with current through supply mains I56 extending from a transformer 3| which i connected by conductors I58 and I59 to the other circuit supply mains for the system.

Thus the controller provides means for individual selection of any number of remote operations according to the denominations of coins inserted for that purpose; provision is made for rejecting spurious coins; the controller prevents the selection of more than one operating circuit at the same time; and means is provided for preventing the fraudulent operation of any of the selected circuits.

Iclaim: 1. An indicating device embodying therein a substantially opaque panel having an aperture extending therethrough, a depressible button having a translucent portion having a sliding fit within said aperture and exposed forwardly of said panel, an opaque portion rearwardly of said panel, an opaque sealing means carried by said button rearwardly of its translucent portion and engageable with the rear of said panel when the button is nondepressed to exclude light rays from said translucent portion, and a constant source of light rearwardly of said panel whereby when said button is depressed, a portion of the translucent portion thereof is exposed rearwardly of said panel, and light rays from said source will penetrate said portion of said button and be refracted to make the translucent portion of the button luminous.

2. An indicating device embodying therein a substantially opaque panel having a circular aperture extending therethrough, an axially movable button having a cylindrical translucent portion having a sliding fit within said apertur and exposed forwardly of said panel, an opaque portion rearwardly of said panel, and opaque sealing means carried by said button rearwardly of its translucent portion and engageable with the rear of said panel when the button is nondepressed to exclude light rays from said translucent portion, and a constant source of light rearwardly of said panel whereby when said button is depressed, a portion of the translucent portion thereof is exposed rearwardly of said panel, and light rays from said source will penetrate said portion of said button and be refracted to make the translucent portion of the button luminous.

LLOYD J ANDRES. 

